CN101554935B - Accommodation device - Google Patents

Abstract

The invention provides an accommodating device, comprising a partition part, an accommodation part, and a guide part arranged between the partition part and the accommodation part. The partition part comprises a plurality of partition cavities; the accommodation part comprises a plurality of accommodation cavities which are corresponding to the partition cavities; the guide part comprises a guiding through hole which is selectively communicated with an accommodation cavity and a partition cavity by rotation of the guide part. The accommodation device of the technical proposal is convenient foraccommodating injection molding products corresponding to different mold cavities.

Description

Accommodation device

Technical field

The present invention relates to accommodation device, relate in particular to a kind of accommodation device that is used to take in injection molding product.

Background technology

Utilizing mould molding is the important way of converted products during modern industry is produced, and formed in mould main method comprises punch forming, injection mo(u)lding, die cast and forging molding.Wherein, Injection mo(u)lding is the acquisition widespread use in fields such as electronics, instrument and meter and communications by its output is high, speed is fast, suitable material is many, sees also the document Fabrication of PiezoelectricCeramic/Polymer Composites by Injection Molding that people such as Leslie J.Bowen was published among ISAF ' the 92:Proceedings of the Eighth IEEE International Symposium onApplications of Ferroelectrics in 1992.

Injection molding method is meant plastic with plasticity is heated as fluid, it is expelled in the die cavity of close die again, at heating and pressurizing condition compacted under, behind cooling curing, forms the processing products method.Along with the development of injection molding technology, the die cavity quantity that is used to supply formed product in the die cavity also increases to 16,32 from 2,4, even develops into 64 more than now.Mould with a plurality of die cavitys can be produced an injection moulded products that has a plurality of injection molding products and a stub bar through shot moulding.After the junction of a plurality of injection molding products and stub bar in the injection moulded products cut off with shear respectively, can obtain a plurality of injection molding products.

Injection moulded products has cut off two kinds of methods in the prior art.First kind is that injection moulded products is positioned over bearing platform; With a plurality of shearing tools the junction of a plurality of injection molding products and stub bar is cut off simultaneously then, a plurality of injection molding products after the shearing drop simultaneously and are contained in the bogey that only has a host cavity that is positioned over shearing tool below.Second method is the rotational shear method; After soon injection moulded products will be positioned over bearing platform; Bearing platform rotates and drives injection moulded products and rotates; Thereby make the junction of a plurality of injection molding products and stub bar successively through a shearing tool, shearing tool regularly descends cutter can the junction of injection molding product and stub bar be cut off successively, and makes injection molding product after shearing drop successively and be contained in the bogey that only has a host cavity.

But in general, the shape of die cavity has determined the shape of the injection molding product of production.That is to say that the corresponding injection molding product of producing of different die cavitys possibly have shape, structural difference.The corresponding injection molding product of producing of all die cavitys all is contained in the bogey that only has a host cavity, possibly causes the inspection of the injection molding product of different die cavitys to receive, the inconvenience of classification.

Therefore, be necessary to provide a kind of accommodation device of being convenient to take in the injection molding product of different die cavitys.

Summary of the invention

Below will a kind of accommodation device be described with embodiment.

A kind of accommodation device; Comprise separating part, incorporating section and be arranged at separating part and the incorporating section between guide portion; Said separating part has a plurality of compartments, and said incorporating section has a plurality of chambeies of taking in, and the said chamber of taking in is corresponding one by one with said compartment; Said guide portion has a guide through hole, and the rotation of said guide through hole through guide portion optionally is communicated with one and takes in chamber and a compartment.

Accommodation device in the present technique scheme has following advantage: at first, accommodation device has a plurality of compartments, can carry the injection molding product corresponding to a plurality of die cavitys after the shearing respectively; Secondly; The rotation of guide portion can make guide through hole be communicated with and take in chamber and compartment; Thereby make the injection molding product of compartment through the guide through hole landing and finally be accommodated in and take in the chamber, make a plurality of chambeies of taking in to take in injection molding product respectively corresponding to a plurality of die cavitys; At last, the accommodation device in the present technique scheme is convenient to the injection molding product of different die cavitys is examined receipts or classification.

Description of drawings

Fig. 1 is the decomposing schematic representation of the accommodation device that provides of present technique scheme first embodiment.

Fig. 2 is the combination scheme drawing of the accommodation device that provides of present technique scheme first embodiment.

Fig. 3 is accommodation device that present technique scheme first embodiment provides scheme drawing when cooperating with shear.

Fig. 4 is the decomposing schematic representation of the accommodation device that provides of present technique scheme second embodiment.

Fig. 5 is accommodation device that present technique scheme second embodiment provides scheme drawing when cooperating with shear.

Fig. 6 is the scheme drawing of the guide portion that provides of present technique scheme the 3rd embodiment.

Fig. 7 is the decomposing schematic representation of the accommodation device that provides of present technique scheme the 4th embodiment.

Fig. 8 is the decomposing schematic representation of the accommodation device that provides of present technique scheme the 5th embodiment.

The specific embodiment

To combine accompanying drawing and a plurality of embodiment below, the accommodation device that the present technique scheme provides is done further to specify, this accommodation device can be used for taking in injection molding product.

Please consult Fig. 1 and Fig. 2 in the lump, the accommodation device 10 that present technique scheme first embodiment provides comprise separating part 11, incorporating section 12 and be arranged at separating part 11 and incorporating section 12 between guide portion 13.

In the present embodiment, said separating part 11 comprises cylinder side wall 111 and a dividing plate 112.Said cylinder side wall 111 surrounds and constitutes a columnar cavity 110.Said dividing plate 112 is arranged in the cavity 110; Parallel with the central axis of cylinder side wall 111 and be connected with cylinder side wall 111, thus columnar cavity 110 evenly is divided into semicylindrical first compartment 1101 and semicylindrical second compartment 1102.Said first compartment 1101 and second compartment 1102 all can be used for the injection molding product after the ccontaining shearing, and therefore, separating part 11 can be separated the injection molding product corresponding to two die cavitys after the shearing.

Correspondingly, said incorporating section 12 has with first compartment 1101 cooresponding first and takes in chamber 1201 and take in chamber 1202 with second compartment 1102 cooresponding second.Said correspondence is meant that the shape of compartment, size are all corresponding each other with the shape of taking in the chamber, size.In the present embodiment, incorporating section 12 is a cylinder, comprises cylinder side wall 121, dividing plate 122 and diapire 123.One end of said cylinder side wall 121 and 123 vertical connections of diapire form a cylindrical cavity 120 thereby make sidewall 121 and diapire 123 surround.Said dividing plate 122 is arranged in the cylindrical cavity 120; With 123 vertical connections of diapire; Be connected with sidewall 121 simultaneously; Be semicylindrical first and take in chamber 1201 and second and take in chamber 1202 thereby cylindrical cavity 120 is divided into, to take in the injection molding product after the shearing respectively corresponding to two die cavitys.

Preferably, dividing plate 122 middle parts of said incorporating section 12 can offer accepting hole 1220, the axis of accepting hole 1220 can with the central axes of cylinder side wall 121 so that guide portion 13 is set.

Said guide portion 13 is used for optionally being communicated with first compartment 1101 and first and takes in chamber 1201 or be communicated with second compartment 1102 and second and take in chamber 1202.Guide portion 13 comprises rotating shaft 131 and the guide body 132 that is provided with around rotating shaft 131.Said rotating shaft 131 can be fixedly arranged on the dividing plate 112 of separating part 11 or the dividing plate 122 of incorporating section 12.In the present embodiment; Said rotating shaft 131 is a cylindrical bar; The one of which end is contained in the accepting hole 1220 of incorporating section 12; The other end passes guide body 132 and is fixed in the dividing plate 112 of separating part 11, thereby not only can make guide body 132 around rotating shaft 131 rotations, can also easily guide body 132 be arranged between separating part 11 and the incorporating section 12.

The cylinder of said guide body 132 for matching with separating part 11, incorporating section 12 has relative upper surface 1321 and lower surface 1322.Said upper surface 1321 is used for contacting with sidewall 11 1, the dividing plate 112 of separating part 11, and said lower surface 1322 is used for contacting with sidewall 121, the dividing plate 122 of incorporating section 12.Guide body 132 offers accepting hole 1320 and guide through hole 130, and accepting hole 1320 and guide through hole 130 all run through upper surface 1321 and lower surface 1322.Said accepting hole 1320 is a cylindrical hole, and is corresponding with the accepting hole 1220 of incorporating section 12, is used to supply rotating shaft 131 to wear.The shape of said guide through hole 130, size, offer the position all with the compartment of separating part 11 and incorporating section 12 to take in the chamber corresponding.Particularly, the cross sectional dimensions of guide through hole 130 can be equal to or less than the cross sectional dimensions of minimum compartment, thereby makes guide through hole 130 accurately and efficiently the injection molding product in the compartment to be guided to the corresponding chamber of taking in, and does not produce mispriming.

In the present embodiment; Because first compartment 1101, second compartment, 1102 sizes are identical; Cross-sectional plane is semicircle; Therefore guide through hole 130 is also for cross-sectional plane is roughly semi-round through hole, and it is offered position and first compartment 1101, first and takes in chamber 1201 corresponding perhaps to take in chamber 1202 corresponding with second compartment 1102, second.

Because guide portion 13 is arranged between separating part 11, the incorporating section 12; Therefore; The rotation of guide body 132 can make guide through hole 130 take in the rotated position in chamber 1201 and take in the position in chamber 1202 to being communicated with second compartment 1102 and second from being communicated with first compartment 1101 and first; That is, guide through hole 130 can be taken in the effect in chamber 1201 and becomes the effect that chamber 1202 is taken in the injection molding product landing to the second that has in guiding second compartment 1102 from having the injection molding product landing to the first of guiding first compartment 1101.

Certainly, said guide body 132 can be passed through mechanicals device such as belt, gear and CD-ROM drive motor and realize around the rotation of rotating shaft 131, also can realize through manual operation.

In addition, separating part 11, incorporating section 12 are not limited to the shape described in the present embodiment, and it all can also be square tubbiness, unsetting cryptomere etc.Certainly, guide portion 13 also can be other shape that matches with separating part 11, incorporating section 12.

The accommodation device 10 of present embodiment can be used for the injection molding product corresponding to different die cavitys after shearing is taken in respectively.Particularly, please consult Fig. 1, Fig. 2 and Fig. 3 in the lump, when shearing injection moulded products 700 with the shear that comprises first shearing tool 601, second shearing tool 602 and bearing platform 603, injection moulded products 700 can be positioned on the bearing platform 603 of shear.The stub bar 703 that injection moulded products 700 has first injection molding product 701, second injection molding product 702 and connects first injection molding product 701 and second injection molding product 702.Accommodation device 10 can be arranged at bearing platform 603 belows of shear; First compartment 1101, second compartment 1102 can correspond respectively to first injection molding product 701 and second injection molding product 702 of injection moulded products 700, and guide through hole 130 are positioned at be communicated with the position that first compartment 1101 and first is taken in chamber 1201.After first shearing tool 601 of shear, second shearing tool 602 are cut off first injection molding product 701, second injection molding product 702 with the junction of stub bar 703 simultaneously; First injection molding product 701 after the shearing drops the back through first compartment 1101, guide through hole 130; And be accommodated in first and take in the chamber 1201; And second injection molding product 702 after shearing is accommodated in second compartment 1102 after dropping; When guide portion 13 rotation so that guide through hole 130 is communicated with second compartments 1102 and second when taking in chamber 1202; Second injection molding product 702 just can be taken in chamber 1202 landings from second, takes in the chamber 1202 through being accommodated in second after the guide through hole 130.Therefore, the accommodation device 10 of present technique scheme has and can take in the advantage corresponding to the injection molding product of different die cavitys respectively.

See also Fig. 4; Accommodation device 10 shown in the accommodation device 20 shown in present technique scheme second embodiment and first embodiment is roughly the same; Its difference is: dividing plate 212 middle parts of separating part 21 offer accepting hole 2120, and said accepting hole 2120 is corresponding with the accepting hole 2320 of guide portion 23.The rotating shaft 231 of guide portion 23 can be passed accepting hole 2120, thereby makes that separating part 21 also can be around rotating shaft 231 rotations.Certainly, separating part 11 can pass through belt, gear or other element and be connected with actuating device and control setup, under control setup control, to be rotated by drive device drives separating part 11.

Thereby; Accommodation device 20 shown in the present embodiment can also will be taken in respectively corresponding to the injection molding product of different die cavitys through the method for rotation separating part 21 except that using mode shown in first embodiment will take in respectively corresponding to the injection molding product of different die cavitys.Particularly; Please consult Fig. 4 and Fig. 5 in the lump; When shearing injection moulded products 700 with the shear that comprises a shearing tool 801 and a rotatable bearing platform 803, injection moulded products 700 can be positioned on the bearing platform 803, and accommodation device 20 can be positioned over shearing tool 801 belows; First compartment 2101 is corresponding to first injection molding product 701 and shearing tool 801, and guide through hole 230 is corresponding to first compartment 2101.At first, shearing tool 801 can be cut off first injection molding product 701 and the junction of stub bar 703, and first injection molding product 701 after cutting off drops and takes in chamber 2201 into first through first compartment 2101, guide through hole 230.Secondly, make bearing platform 803 rotations so that second injection molding product 702 is corresponding with shearing tool 801 after cutting off.Meanwhile, separating part 21 rotates with guide portion 23 together, so that second compartment 2102 is corresponding to second injection molding product 702, guide through hole 230 is taken in chamber 2202 corresponding to second.Once more, shearing tool 801 is cut off second injection molding product 702 and the junction of stub bar 703, and second injection molding product 702 after cutting off drops and is contained in second compartment 2102.At last, rotate separating part 21 and keep guide portion 23 motionless, make second compartment 2102 corresponding to guide through hole 230.At this moment, guide through hole 230 is communicated with second compartments 2102 and second and takes in chamber 2202, the second injection molding products 702 and can be accommodated in second through guide through hole 230 and take in chamber 2202.

See also Fig. 6, the accommodation device 10 shown in the accommodation device shown in present technique scheme the 3rd embodiment and first embodiment is roughly the same, and its difference is: guide portion 33 also comprises a directing plate 333.Said directing plate 333 is arranged between the upper surface 3321 of separating part (figure does not show) and guide body 332, and its shape matches with the shape of guide through hole 330, to be used to cover or expose guide through hole 330.In the present embodiment, directing plate 333 is the lamellar body of cross-sectional plane approximate half-circular, has a through hole 3330.Through hole 3330 is passed in rotating shaft 331, thereby directing plate 333 can rotate around rotating shaft 331.Along with the rotation of directing plate 333, directing plate 333 can cover or expose guide through hole 330, thereby whether landing is in the chamber of taking in of incorporating section for the injection molding product in the compartment of control separating part.

Preferably, directing plate 333 can also be provided with a guiding piece 334 at its end away from through hole 3330.Said guiding piece 334 can be for prismatic, cylindrical, elliptical cylinder-shape etc., is advisable so that stir through mechanical device or manual work, thereby can rotates directing plates 333 through stirring guiding piece 334.In the present embodiment, guiding piece 334 is approximately cuboid.

Certainly, said directing plate 333 also can be arranged between the lower surface 3322 and guide portion of guide body 332, can seal or open guide through hole 330 equally, and whether landing is in the effect of taking in the chamber thereby play the interior injection molding product of control compartment.

See also Fig. 7; Accommodation device 10 shown in the accommodation device 40 shown in present technique scheme the 4th embodiment and first embodiment is roughly the same, and its difference is: have first conducting tubes 441 and second conducting tubes 442 between guide portion 43 and the incorporating section 42.

Said first conducting tubes 441 has first guiding port 4411 and second guiding port 4412 that is oppositely arranged.Said first guiding port 4411 is arranged at guide portion 43 belows, and corresponding with first compartment 4101.Said second guiding port 4412 is arranged at 42 tops, incorporating section, and with first to take in chamber 4201 corresponding.Thereby the injection molding product in first compartment 4101 can be via first guiding port 4411 and second guiding port 4412 of first conducting tubes 441 through after the guide through hole 430 of guide portion 43, and chamber 4201 is taken in first of last landing to incorporating section 42.

Said second conducting tubes 442 also has first guiding port 4421 and first guiding port 4422 that is oppositely arranged.Said first guiding port 4421 is arranged at guide portion 43 belows, and corresponding with second compartment 4102.Said first guiding port 4422 is arranged at 42 tops, incorporating section, and with second to take in chamber 4202 corresponding.Thereby the injection molding product in second compartment 4102 can be via first guiding port 4421 and second guiding port 4422 of second conducting tubes 442 through after the guide through hole 430 of guide portion 43, and chamber 4202 is taken in second of last landing to incorporating section 42.

Said first conducting tubes 441 and second conducting tubes 442 can be processed by flexible material, so that first conducting tubes 441 and second conducting tubes 442 all can be arbitrarily crooked, and extend certain distance.Thereby, can have certain distance between incorporating section 42 in the present embodiment and the separating part 41.That is to say that incorporating section 42 can not be positioned over shears the workshop, thereby has avoided incorporating section 42 to take the production space of shearing the workshop.

See also Fig. 8; Accommodation device 20 shown in the accommodation device 50 shown in present technique scheme the 5th embodiment and second embodiment is roughly the same; Its difference is: separating part 51 has orthogonal first dividing plate 5121 and second partition 5122; Said first dividing plate 5121, second partition 5122 all are connected with sidewall 511, thereby first dividing plate 5121, second partition 5122 are separated into four compartments that size is identical with cylindrical cavity 510.Thereby separating part 51 can be with separating corresponding to the injection molding product of four die cavitys.

The height of said first dividing plate 5121, second partition 5122 can be identical with the height of sidewall 511, also can be greater than the height of sidewall 511.In the present embodiment, the height of first dividing plate 5121, second partition 5122 is greater than the height of sidewall 511, thereby when shearing injection moulded products, can be more convenient for carrying out between injection molding product and the compartment contraposition.

With separating part 51 accordingly, the guide through hole 530 of guide portion 53 is and a cooresponding fan-shaped pylone of compartment that its cross-sectional plane is approximately 1/4th circle.Incorporating section 52 also has orthogonal first dividing plate 5221 and second partition 5222; Thereby first dividing plate 5221, second partition 5222 are separated into four with cylindrical cavity 520 and take in the chamber, make incorporating section 52 can take in the injection molding product corresponding to four die cavitys.

Certainly; It will be appreciated by those skilled in the art that; Separating part can comprise three, five or more a plurality of compartment; The incorporating section also can correspondingly comprise three, five or more a plurality of compartment, thereby the accommodation device in the present technique scheme can be taken in the injection molding product after shearing corresponding to the injection moulded products of three, five or more a plurality of die cavitys respectively.

Accommodation device in the present technique scheme has following advantage: at first, accommodation device has a plurality of compartments, can carry the injection molding product corresponding to a plurality of die cavitys after the shearing respectively; Secondly; The rotation of guide portion can make guide through hole be communicated with and take in chamber and compartment; Thereby make the injection molding product of compartment through the guide through hole landing and finally be accommodated in and take in the chamber; Make a plurality of chambeies of taking in to take in injection molding product respectively, thereby be convenient to the injection molding product of different die cavitys is examined receipts or classification corresponding to a plurality of die cavitys.

It is understandable that, for the person of ordinary skill of the art, can make other various corresponding changes and distortion by technical conceive according to the present invention, and all these change the protection domain that all should belong to claim of the present invention with distortion.

Claims (12)

1. accommodation device; Comprise separating part, incorporating section and be arranged at separating part and the incorporating section between guide portion; Said separating part has a plurality of compartments, and said incorporating section has a plurality of chambeies of taking in, and the said chamber of taking in is corresponding one by one with said compartment; Said guide portion has a guide through hole, and the rotation of said guide through hole through guide portion optionally is communicated with one and takes in chamber and a compartment.

2. accommodation device as claimed in claim 1 is characterized in that, said separating part comprises sidewall and at least one dividing plate, and said sidewall surrounds and constitutes a cavity, and said dividing plate is arranged in the cavity, is used for cavity is separated into a plurality of compartments.

3. accommodation device as claimed in claim 2 is characterized in that the height of said dividing plate is more than or equal to the height of said sidewall.

4. accommodation device as claimed in claim 1 is characterized in that said guide portion comprises rotating shaft and guide body, and said guide body has an accepting hole, and accepting hole is passed in said rotating shaft, so that guide body is rotated around rotating shaft.

5. accommodation device as claimed in claim 4 is characterized in that, said separating part has an accepting hole, and the rotating shaft of said guide portion also is arranged in the accepting hole of separating part so that said a plurality of compartment centers on the rotating shaft rotation.

6. accommodation device as claimed in claim 4; It is characterized in that; Said guide portion also comprise one with the corresponding directing plate of guide through hole, said directing plate be arranged between guide portion and the separating part or guide portion and incorporating section between, be used for rotating with sealing or opening guide through hole around rotating shaft.

7. accommodation device as claimed in claim 6 is characterized in that, said directing plate has a guiding piece, and said guiding piece is arranged at the end of directing plate away from rotating shaft, is used to drive directing plate and rotates around the axis.

8. accommodation device as claimed in claim 1; It is characterized in that; Have a plurality of conducting tubes between said guide portion and the incorporating section; Each conducting tubes all has the first relative guiding port and second guiding port, and said first guiding port is corresponding to a compartment, and said second guiding port is taken in the chamber corresponding to one.

9. accommodation device as claimed in claim 8 is characterized in that said conducting tubes is processed by flexible material.

10. accommodation device as claimed in claim 1; It is characterized in that said incorporating section comprises sidewall, diapire and at least one dividing plate, said sidewall and diapire connect and compose a cavity; Said dividing plate is arranged in the cavity, is used for cavity is separated into a plurality of chambeies of taking in.

11. accommodation device as claimed in claim 1 is characterized in that, the cross sectional dimensions of said guide through hole is less than or equal to the cross sectional dimensions of minimum compartment.

12. accommodation device as claimed in claim 1 is characterized in that, said a plurality of compartments have identical shape of cross section and size.

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